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An air bubble approximately 7 mm in diameter was then introduced within the sample chamber and subjected to cyclic volume

Published April 20, 2017 by MEK Inhibitor- sgkinhibitor

ectopically mts-hLIG1 either in the LIG32/2loxPLIG42/2 or the LIG32/ 2 LIG42/2 genetic background. Compared to LIG32/ 2loxP LIG42/2 cells, LIG32/2loxPLIG42/2mts-hLIG1 and LIG32/ LIG42/2mts-hLIG1 cells are slightly more radioresistant pointing to a small survival advantage conferred by overexpressed LIG1. 2 Discussion The results outlined above provide solid genetic proof for independent and robust MedChemExpress ISX-9 function of both LIG1 and LIG3 in DSB repair via B-NHEJ. Together with our results on the ligation 10 DNA Ligases in Alternative NHEJ terminus zinc-finger domain, which enhances the DNA knickbinding affinity of the enzyme and facilitates inter-molecular ligation. It is commonly thought that LIG3 operates in complex with XRCC1. However, XRCC1 deficient cells fail to show decreased usage of B-NHEJ as suggested by increased usage of microhomology, and recent reports uncouple the function of LIG3 from XRCC1 in several cellular functions including repair of DSBs during Ig heavy chain class switch recombination by alternative end joining. Therefore, we postulate that LIG3 operates in DT40 B-NHEJ without a requirement for XRCC1 function. Since a XRCC1 homolog could not be identified in the known DT40 genome, genetic studies on the function of this protein in DT40 are compromised at 12504917 present. Our results show that the slight advantage afforded to DT40 BNHEJ by LIG3 can be compensated by overexpression of the mitochondria form of hLIG1. The function of LIG1 in B-NHEJ is also supported by results obtained in yeast that lack LIG3. Thus, deletion of Dnl4 or its accessory factor Nej1 reduces alternative repair approximately by half, but does not completely eliminate it, which is consistent with a role of LIG1 in yeast alternative end joining. In human cells, LIG1 is also involved in alternative DSB repair and in quiescent cells, LIG1 rather LIG3 appears involved in the repair of diverse DNA lesions – even those induced by IR or H2O2 that should include DSBs. Also results obtained using Ig class switch recombination in B cells indirectly support a role for LIG1 in alternative end joining. Thus, LIG1 and LIG3 may flexibly operate in B-NHEJ, further enhancing the flexibility of this repair pathway in the selection of participating factors. The apparent plasticity in participating factor selection for B-NHEJ is in stark contrast to the rigid repertoire of factors participating in D-NHEJ and may reflect its primordial nature. Materials and Methods Cell Culture DT40 cells were grown in D-MEM/F12 supplemented with 10% fetal bovine serum, 1% chicken serum, 50 mM b-mercaptoethanol at 41uC in a humidified incubator with 5% CO2 and were routinely maintained in the logarithmic phase of growth. Mutants analyzed here were derived from the DT40-Cre1 cell line and have been described. They are also summarized in Pulsed-field Gel Electrophoresis 166106 cells were pre-treated for 1 h with 100 mM Caspase III Inhibitor, and irradiated on ice. After 10604535 irradiation, cells were quickly returned to 41uC for repair. After each repair time interval, cells were collected and embedded in 0.5% Agarose growth medium at a final concentration of 76106 cells/ml. Cells were lysed for 18 h at 50uC in lysis buffer. Subsequently, plugs were transferred to washing buffer for 1 h and treated for 1 h with 0.1 mg/ml RNAase A at 37uC. Induction and repair of DSBs were evaluated by asymmetric field inversion gel electrophoresis. AFIGE was carried out in 0.5% gels of SeaKem LE Agarose with 0.5 mg/ml et